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Temperature of Concentration Cell with Transference given Transport Number of Anion Formula

GoTemperature given internal energy and Helmholtz free entropy Formula

GoTemperature given Helmholtz free energy and Helmholtz free entropy Formula

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The temperature of liquid is the degree or intensity of heat present in a liquid. Check FAQs

T = \frac{\frac{E cell \cdot [Faraday]}{2 \cdot t - \cdot [R]}}{\frac{\ln (m 2 \cdot γ 2)}{m 1 \cdot γ 1}}

T - Temperature of Liquid?E_cell - EMF of Cell?t_- - Transport Number of Anion?m₂ - Cathodic Electrolyte Molality?γ₂ - Cathodic Activity Coefficient?m₁ - Anodic Electrolyte Molality?γ₁ - Anodic Activity Coefficient?[Faraday] - Faraday constant?[R] - Universal gas constant?

Temperature of Concentration Cell with Transference given Transport Number of Anion Example

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Here is how the Temperature of Concentration Cell with Transference given Transport Number of Anion equation looks like with Values.

Here is how the Temperature of Concentration Cell with Transference given Transport Number of Anion equation looks like with Units.

Here is how the Temperature of Concentration Cell with Transference given Transport Number of Anion equation looks like.

-30.5931 = \frac{\frac{0.51 \cdot 96485.3321}{2 \cdot 49 \cdot 8.3145}}{\frac{\ln (0.13 \cdot 0.1)}{0.4 \cdot 5.5}}

-30.5931K = \frac{\frac{0.51V \cdot 96485.3321}{2 \cdot 49 \cdot 8.3145}}{\frac{\ln (0.13mol/kg \cdot 0.1)}{0.4mol/kg \cdot 5.5}}

-30.5931 = \frac{\frac{0.51 \cdot 96485.3321}{2 \cdot 49 \cdot 8.3145}}{\frac{\ln (0.13 \cdot 0.1)}{0.4 \cdot 5.5}}

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Temperature of Concentration Cell with Transference given Transport Number of Anion Solution

Follow our step by step solution on how to calculate Temperature of Concentration Cell with Transference given Transport Number of Anion?

FIRST Step Consider the formula

T = \frac{\frac{E cell \cdot [Faraday]}{2 \cdot t - \cdot [R]}}{\frac{\ln (m 2 \cdot γ 2)}{m 1 \cdot γ 1}}

Next Step Substitute values of Variables

∴

T = \frac{\frac{0.51V \cdot [Faraday]}{2 \cdot 49 \cdot [R]}}{\frac{\ln (0.13mol/kg \cdot 0.1)}{0.4mol/kg \cdot 5.5}}

Next Step Substitute values of Constants

∴

T = \frac{\frac{0.51V \cdot 96485.3321}{2 \cdot 49 \cdot 8.3145}}{\frac{\ln (0.13mol/kg \cdot 0.1)}{0.4mol/kg \cdot 5.5}}

Next Step Prepare to Evaluate

∴

T = \frac{\frac{0.51 \cdot 96485.3321}{2 \cdot 49 \cdot 8.3145}}{\frac{\ln (0.13 \cdot 0.1)}{0.4 \cdot 5.5}}

Next Step Evaluate

∴

T = -30.5930989187858K

LAST Step Rounding Answer

∴

T = -30.5931K

Temperature of Concentration Cell with Transference given Transport Number of Anion Formula Elements

Variables

Constants

Functions

Temperature of Liquid

The temperature of liquid is the degree or intensity of heat present in a liquid.

Symbol: T

Measurement: TemperatureUnit: K

Note: Value can be positive or negative.

Formulas to find Temperature of Liquid

EMF of Cell

The EMF of Cell or electromotive force of a cell is the maximum potential difference between two electrodes of a cell.

Symbol: E_cell

Measurement: Electric PotentialUnit: V

Note: Value can be positive or negative.

Formulas to find EMF of Cell

Transport Number of Anion

The Transport Number of Anion is ratio of current carried by anion to total current.

Symbol: t_-

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Transport Number of Anion

Cathodic Electrolyte Molality

The Cathodic Electrolyte Molality is defined as the total number of moles of solute per kilogram of solvent present in the solution of the cathodic cell.

Symbol: m₂

Measurement: MolalityUnit: mol/kg

Note: Value can be positive or negative.

Formulas to find Cathodic Electrolyte Molality

Cathodic Activity Coefficient

The Cathodic Activity Coefficient is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances in the cathodic half cell.

Symbol: γ₂

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Cathodic Activity Coefficient

Anodic Electrolyte Molality

The Anodic Electrolyte Molality is defined as the total number of moles of solute per kilogram of solvent present in the solution of the anodic cell.

Symbol: m₁

Measurement: MolalityUnit: mol/kg

Note: Value can be positive or negative.

Formulas to find Anodic Electrolyte Molality

Anodic Activity Coefficient

The Anodic Activity Coefficient is a factor used in thermodynamics to account for deviations from ideal behaviour in a mixture of chemical substances in the anodic half cell.

Symbol: γ₁

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Anodic Activity Coefficient

Faraday constant

Faraday constant represents the charge of one mole of electrons and is used in electrochemistry to relate the amount of substance undergoing oxidation.

Symbol: [Faraday]

Value: 96485.33212

Universal gas constant

Universal gas constant is a fundamental physical constant that appears in the ideal gas law, relating the pressure, volume, and temperature of an ideal gas.

Symbol: [R]

Value: 8.31446261815324

The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function.

Syntax: ln(Number)

Other Formulas to find Temperature of Liquid

Go Temperature given internal energy and Helmholtz free entropy

T = \frac{U}{S - Φ}

Go Temperature given Helmholtz free energy and Helmholtz free entropy

T = - (\frac{A}{Φ})

How to Evaluate Temperature of Concentration Cell with Transference given Transport Number of Anion?

Temperature of Concentration Cell with Transference given Transport Number of Anion evaluator uses Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*Transport Number of Anion*[R]))/(ln(Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient)) to evaluate the Temperature of Liquid, The Temperature of concentration cell with transference given transport number of anion formula is defined as the relation with emf of cell and with transport number of the anion and molality and activity coefficient of electrolyte in the cathodic and anodic half cell. Temperature of Liquid is denoted by T symbol.

How to evaluate Temperature of Concentration Cell with Transference given Transport Number of Anion using this online evaluator? To use this online evaluator for Temperature of Concentration Cell with Transference given Transport Number of Anion, enter EMF of Cell (E_cell), Transport Number of Anion (t_-), Cathodic Electrolyte Molality (m₂), Cathodic Activity Coefficient (γ₂), Anodic Electrolyte Molality (m₁) & Anodic Activity Coefficient (γ₁) and hit the calculate button.

FAQs on Temperature of Concentration Cell with Transference given Transport Number of Anion

What is the formula to find Temperature of Concentration Cell with Transference given Transport Number of Anion?

The formula of Temperature of Concentration Cell with Transference given Transport Number of Anion is expressed as Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*Transport Number of Anion*[R]))/(ln(Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient)). Here is an example- -30.593099 = ((0.51*[Faraday])/(2*49*[R]))/(ln(0.13*0.1)/(0.4*5.5)).

How to calculate Temperature of Concentration Cell with Transference given Transport Number of Anion?

With EMF of Cell (E_cell), Transport Number of Anion (t_-), Cathodic Electrolyte Molality (m₂), Cathodic Activity Coefficient (γ₂), Anodic Electrolyte Molality (m₁) & Anodic Activity Coefficient (γ₁) we can find Temperature of Concentration Cell with Transference given Transport Number of Anion using the formula - Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*Transport Number of Anion*[R]))/(ln(Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient)). This formula also uses Faraday constant, Universal gas constant and Natural Logarithm (ln) function(s).

What are the other ways to Calculate Temperature of Liquid?

Here are the different ways to Calculate Temperature of Liquid-

Temperature of Liquid=Internal Energy/(Entropy-Helmholtz Free Entropy)
Temperature of Liquid=-(Helmholtz Free Energy of System/Helmholtz Free Entropy)
Temperature of Liquid=((Internal Energy+(Pressure*Volume))/(Entropy-Gibbs Free Entropy))

Can the Temperature of Concentration Cell with Transference given Transport Number of Anion be negative?

Yes, the Temperature of Concentration Cell with Transference given Transport Number of Anion, measured in Temperature can be negative.

Which unit is used to measure Temperature of Concentration Cell with Transference given Transport Number of Anion?

Temperature of Concentration Cell with Transference given Transport Number of Anion is usually measured using the Kelvin[K] for Temperature. Celsius[K], Fahrenheit[K], Rankine[K] are the few other units in which Temperature of Concentration Cell with Transference given Transport Number of Anion can be measured.

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Temperature of Concentration Cell with Transference given Transport Number of Anion Formula

​GoTemperature given internal energy and Helmholtz free entropy Formula

​GoTemperature given Helmholtz free energy and Helmholtz free entropy Formula

Temperature of Concentration Cell with Transference given Transport Number of Anion Example

Temperature of Concentration Cell with Transference given Transport Number of Anion Solution

Temperature of Concentration Cell with Transference given Transport Number of Anion Formula Elements

Other Formulas to find Temperature of Liquid

How to Evaluate Temperature of Concentration Cell with Transference given Transport Number of Anion?

FAQs on Temperature of Concentration Cell with Transference given Transport Number of Anion

Variable Name

GoTemperature given internal energy and Helmholtz free entropy Formula

GoTemperature given Helmholtz free energy and Helmholtz free entropy Formula